An object is located at a distance of 5 cm from a thin convergent lens of...

An object is located at a distance of 5 cm from a thin convergent lens of focal length 33 mm. The image produced has the following characteristics:

Expert Solution

Problem is solved using thin lens formula and formula of lateral magnification.

genius_generous answered 2 years ago

Compute the image location and magnification of an object 40 cm from a doublet thin lens...

Compute the image location and magnification of an object 40 cm from a doublet thin lens combination having focal lengths f1 = +20 cm and f2 = −60 cm, given that the second lens is positioned 12 cm behind the front one. If the object is two centimeters high determine the size and the type of the image. Make a sketch of appropriate rays that support your findings.

The distance between an object and its image formed by a diverging lens is 51.7 cm....

The distance between an object and its image formed by a diverging lens is 51.7 cm. The focal length of the lens is -235 cm. a.) Find the image distance b.) Find the object distance.

The distance between an object and its image formed by a diverging lens is 8.20 cm....

The distance between an object and its image formed by a diverging lens is 8.20 cm. The focal length of the lens is -3.70 cm. Find (a) the image distance and (b) the object distance.

A real object is imaged by a thin lens (F=48mm). The image is located 300 mm...

A real object is imaged by a thin lens (F=48mm). The image is located 300 mm from the object in air. Determine the possible locations of the lens. Determine the magnification and whether the image is upright or inverted and magnified or minified. What is the longest focal length lens that would produce 300 mm separation between the object and the image?

A 1.4-cm-tall object is located 3.0cm to the left of a converging lens with a focal...

A 1.4-cm-tall object is located 3.0cm to the left of a converging lens with a focal length of 4.0cm . A diverging lens, of focal length -7.4cm, is 14cm to the right of the first lens. Find the position of the final image. s2` = -5.7 cm Find the size of the final image. h2` = ? Find the orientation of the final image. a) real, upright b) real, inverted c) virtual, upright d) virtual, inverted

1. Consider a convex lens with a focal length of 5.50 cm. An object is located...

1. Consider a convex lens with a focal length of 5.50 cm. An object is located at 13.50 cm. The object is 6.00 cm tall. Draw the ray diagram to scale. Determine the image distance, the height of the image, the magnification and the characteristices of the image. Pay attention to the sign conventions and units. 2. White light shines through a diffraction grating with 7300 lines per cm. Make a table of diffraction angles for m = 1, 2,...

A 2 cm high object is positioned 5 cm to the right of a converging lens...

A 2 cm high object is positioned 5 cm to the right of a converging lens (f= +3 cm). A diverging lens (f= -15 cm) is located 10 cm to the left of the converging lens. Determine its location and if the final image is inverted and virtual. Show ray tracing diagram to prove your answer.

Problem 1) A 5 cm tall object is 20 cm in front of a diverging lens...

Problem 1) A 5 cm tall object is 20 cm in front of a diverging lens with a focal length of 10 cm. a) What is the location of the image? -6.67cm b) What is the height of the image? -1.67 cm c) The image is:virtual d) The image is:upright At 15 cm to the right of the lens in problem 1 we add a converging lens with a focal length of 10 cm. a) What is the location of...

An object is placed 4.0cm from a thin converging lens with a focal length of 12cm....

An object is placed 4.0cm from a thin converging lens with a focal length of 12cm. What are the properties of the image?

A small object is 25.0 cm from a diverging lens as shown in the figure. A...

A small object is 25.0 cm from a diverging lens as shown in the figure. A converging lens with a focal length of 12.0 cm is 30.0 cm to the right of the diverging lens. The two-lens system forms a real inverted image 17.0 cm to the right of the converging lens. What is the focal length of the diverging lens? What is the total magnification of the final image?

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